Note: This story was dynamically reformatted for online reading convenience. The following story is a work of fiction. Its contents are of a graphically sexual nature and may involve non-consensual sexual acts between underage partners. Any resemblance to persons either alive or dead is purely coincidental. This story is intended for ADULTS only. If you are under the legal age of consent in your local jurisdiction, or if you are easily offended, kindly STOP READING NOW. Insider Information - Sequel to "Implant" - Chapter 4 By - The StoryMaster Danny poured over the scores of text files he'd found in a separate directory. Following what he would later realize was his mother's orgasm, his friend Stuart had gone home, leaving Dan alone with his wondrous new acquisition. The computer part of the system was reasonably familiar to Danny, and although the operating system had been developed by his older brother, it was close enough to Windows 95, that Danny, being the consummate computer geek he was, was able to navigate without too much difficulty. Deciding to study the Subject Files more thoroughly at a later time, Danny now endeavored to unravel the mysteries of the bizarre implant devices themselves. Before beginning his search in the documentation files, Danny picked up the cylindrical container and leaned back in his chair. Peering through the thick glass, he scrutinized the small, white, elliptically shaped objects floating in clear liquid. Upon closer inspection, Dan could find no discernable external features. The tiny capsule-like devices appeared to be just under one inch in length, but this was due to the magnification of the liquid and the curved glass of the container. Dan would discover later that indeed they were no larger than a grain of rice. Dan set the container on the desk and began to read. Vaginal Implant History The first prototypes, known as the MK I's were designed by a gentleman who lived in rural Virginia. They were bulky, cumbersome devices measuring a full two inches in length and close to 3/4 of an inch in diameter. Placed into the vagina manually, the device was then pushed "home" using one's finger or other appendage. The electronics package contained in the early mechanisms was rudimentary at best. Functionality was limited to two forms of stimulation, mechanical vibration and high voltage electrical pulse. There was no audio circuitry at all contained in the early models, and the transceiver was quite limited in range as it relied upon a signal "piggy-backed" onto local amateur radio 440 MHz repeaters. The units were controlled with small remotes disguised as a cellular telephones. Functionality, as stated earlier was limited to duration of vibration stimulation and intensity and timing of pulse bursts. Since the units were so large, the recipients were , naturally, aware of their presence from the time of implantation. In order to insure that the subjects did not remove the devices, a temperature sensing circuit was included which sounded an alarm on the units' remote should the ambient temperature surrounding the implant fall below 96 degrees, Fahrenheit. The early device implantations were also backed up with a program of extortion or blackmail to ensure that the bearer complied with the wishes of her controller. The first known recipient of a MK I was a teenager by the name of Kristen Smith. In addition to Miss Smith, the developer of the original MK I network managed to successfully implant fourteen young women, however, asset management became extremely involved and time consuming. He quickly realized the need for a more automated control system. Enlisting the help of a good friend and computer expert, the developer went to work. Shortly afterward the fully integrated, processor controlled implant network was born. No longer was he forced to monitor the status of each of his subjects. The computer controller handled everything for him, freeing him to work on a new idea. After enjoying the charms of several of his implantees, the developer discovered that the size of the MK I was problematic. Fortunately, at around that same period of time he came across a source of some far more sophisticated micro-circuitry. Another breakthrough came along quite by accident when one evening he was having dinner with a friend who happened to be teaching a graduate course at The University on the subject of the use of magnetic resonance as a form of local anesthesia. If his friend's plans worked out, the days of chemical anesthetics would be over for all time. What our forefather learned that fateful evening was that every human being is susceptible to the influences of magnetic fields. Furthermore, each individual has a specific frequency to which his or her anatomy responds in near perfect synchronization on a cellular level. Being an exceptionally intuitive man, he theorized that if nerves and tissue and bone could be numbed using magnetic energy, then surely other sensory impetus could be directed at selected areas of a subject's anatomy using that very same source. What turned out to be a tremendous surprise to him was how little energy was actually required once the correct harmonic frequency was achieved. Armed with this new technology, our forefather went to work. Six months later the first MK II was ready for testing. The size of a large vitamin capsule, the MK II represented a huge leap forward in implant technology. Although the devices still needed to be manually inserted into the recipient, it was quickly discovered that if the subject could somehow be rendered unconscious at the time of implantation, as a rule she would be unaware of the tiny pellet that rested against her cervical os. This was, of course, a significant improvement since a young lady could now be implanted and then held in reserve until such a time as her services were required. As a result, the population of implanted females grew exponentially. It was about that time that Raymond Morris took up the cause. He'd heard about the devices through a friend who'd spent some time at The University, and Raymond instantly recognized his calling. When at last he managed to acquire a MK II, he immediately saw that there was room for improvement in its design. Raymond's first contribution came in the way of the transceiver technology. The MK II's still relied on the availability of a amateur radio repeater system. Not all communities had such facilities, and in addition, their range of coverage was quite limited. Digital cellular networks were going up world wide as fast as the cellular carriers could erect the towers, and Raymond Morris realized that the cellular networks were a marriage made in heaven for the implant systems. In addition to the far greater coverage afforded by the cellular networks, the higher frequency bands and digital processing provided two major advantages. Using data compression algorithms, a tremendous amount of information could be imbedded into the telemetry in the higher spectrum areas. Secondly, by tying into the cellular systems, a much smaller transmitter could be utilized. The MK III was born. It was virtually identical in size and appearance to the MK II, but its capabilities greatly exceeded its predecessor. Using the increased available band width, the MK III was able to monitor a wide range of bodily functions and then relay the data to the control system. The devices were small and light weight, and their improved energy management systems allowed the power cells to last for years given normal use. They did not interfere with the recipients' sexual activities in any way. In the days of the MK I, subjects were often inconvenienced by the shear size of the implants, particularly during heated encounters. The MK III's, on the other hand, resided quite comfortably deep within the vaginal canal, nestled neatly among the convoluted folds of moist tissue. The only thing lacking in Raymond's way of thinking, was a means by which the devices could be introduced into a young lady without the need for manual intervention. Ray had taken to using Rohypnol and other tranquilizers on his girls, preferring drugs over the use of force. Although, on more than one occasion he'd become caught up in the thrill of the struggle. There was nothing quite like the expression on her face when he held her down or in some other way restrained her. Then always he would show the girl the device before he pushed it up inside of her. As exciting as those occasions were, Ray still preferred the more passive approach. Naturally, once she was implanted the results were the same anyway. With the exception of only one or two individuals, all of Raymond Morris' early "herd" of females, as he like to think of them, were originally implanted with MK III's, and the few exceptions who were still fitted with MK II's were soon upgraded to the more sophisticated model. Then came the break he'd been waiting for. One day Raymond sat alone in his room, gazing out of his bedroom window. His mind drifted lazily when suddenly he noticed a centipede creep out onto the sill from behind the sash. As Ray watched the manylegged insect traverse the window sill then worm its way into a tiny hole in the pulpy wood, an idea virtually exploded into his mind . Ray would use the marvelous method of motive power employed by the centipede as a model for his new version of the Female Implant Device,(FID). The discovery and subsequent development of the liquid crystal centipede propulsion system, (LCCP) would render the earlier vaginal implants with all of their inherent limitations, totally obsolete. The prototype MK IV was a thing of beauty and simplicity. No larger than a single grain of rice, the device, like its predecessors, was fully self-contained. But what was even more remarkable was that due to its sophisticated propulsion system, it was also selfinstalling. A function that the early pioneers of female implantation technology could only dream about. During early testing, the prototype MK IV's were generally placed by hand between the labia minora then allowed to proceed on their own into the subject's interior. Later, however, it was discovered that it was only necessary to place the device in the immediate vicinity of the female genitalia, into her panties, for example. Then utilizing moisture proximity sensors, the FID would automatically seek out the vaginal opening and make its way inside. Once the implant device finds its way into the subject's vagina, its tiny, motive cilia propel the elliptically shaped mechanism up the vaginal canal until it reaches the cervix. At this point in its odyssey, advanced chemical sensors search for traces of cervical mucous, always present at the opening to the womb. The cervical gateway or Os is designed to pass menstrual fluids, but to resist the intrusion of bacteria and foreign objects. The new generation Female Implant Device now begins the formidable task of defeating the subject's natural defenses. This phase of the implantation process may take as long as two hours, but like water wearing away stone, the "FID" is exceedingly persistent. Ever so slowly it "worms" its way through the powerful muscular restriction until it finds its way into the uterus itself. Then, using microscopic anchoring grapples, the implant makes itself fast to the uterine wall or endometrium. Once the device is in position it goes active and begins to transmit telemetry containing pertinent physiological data about the recipient. This is known as the Monitor Mode. In this mode the device is also capable of capturing sounds, voices for example, external to the subject through her soft tissues. In this manner a recipient's behavior can be monitored, and if it is deemed necessary the device can be called upon to treat the subject to a variety of inspiring forms of stimuli, ranging from uterine and cervical excitation by the motive cilia, to electrical shock pulses of infinitely variable intensity and duration. The harmonic resonance function which acts upon both soft tissue and bone alike, can cause the subject to lose bladder and/or rectal sphincter control upon command, and if adjusted properly can bring on intense and uncontrollable orgasms which can be perpetuated almost indefinitely. In addition, unlike its predecessor which resided in the vagina, the uterine implant is invisible to external investigation, and is therefore relatively immune to tampering or attempts at removal. The MK IV project would require the involvement of a few partners, something Raymond had resisted in the past both for personal reasons as well as security concerns. Little is documented regarding the identities of the individuals who would comprise the development team, as most desired to remain anonymous. There are references found here and there about one Dr. Martin Greeley, DDS. Dr. Greeley is said to have masterminded the first large scale campaign to "distribute" the MK IV. Records show that every female patient of his lucrative family dentistry practice received a MK IV. A retired high school principal, who remains anonymous to this day, is credited with the invention of the popular line of "I Woman" women's undergarments. No one ever suspected that the "I" stood for "Implant". Still in production today, each pantie contains a MK IV cleverly concealed inside a tiny pocket in the "absorbent" center panel of the garment. Thanks to this simple yet brilliant approach, women of all ages and walks of life were either intentionally or unwittingly introduced to the MK IV. "This is incredible!" Dan muttered to himself and continued to read. It was nearly three o'clock in the morning when at last he decided to call it quits for the night, but during that period of time, young Daniel Morris had become one very enlightened thirteen year old boy. Continued...